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Fine-Grained VLAN Labeling draft-eastlake-trill-rbridge-fine-labeling-01.txt

Fine-Grained VLAN Labeling draft-eastlake-trill-rbridge-fine-labeling-01.txt. Radia Perlman Intel Labs radiaperlman@gmail.com. Goals. More VLANs Work with existing silicon Allow existing RBridges to work in the core

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Fine-Grained VLAN Labeling draft-eastlake-trill-rbridge-fine-labeling-01.txt

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  1. Fine-Grained VLAN Labelingdraft-eastlake-trill-rbridge-fine-labeling-01.txt Radia Perlman Intel Labs radiaperlman@gmail.com IETF TRILL WG

  2. Goals • More VLANs • Work with existing silicon • Allow existing RBridges to work in the core • Make sure misconfigurations (having old RBridges on the edge) don’t do anything bad • Opportunistic opportunity: 2nd priority field IETF TRILL WG

  3. Basic Idea • Use two VLANs (in the inner packet), to encode 24 bits of VLAN (16 million) IETF TRILL WG

  4. Double VLAN tag outer Ethernet hdr unchanged TRILL header unchanged dest MAC source MAC VLAN INFO this is what changes for fine-grained labeling Old: single VLAN tag Fine-grained: two consecutive VLAN tags (both “C”) payload Link Trailer IETF TRILL WG

  5. Notation • ST=“Single Tag” RBridge, i.e., not fine-grained labeling aware • DT=“Double Tag” RBridge, i.e., fine-grained labeling aware • (X.Y) = Fine-grained label with first 12 bits=X, and 2nd 12 bits=Y IETF TRILL WG

  6. Reporting DT-capability • DT RBridges will report their DT-capability in LSPs • So therefore DT RBridges will know which RBridges are ST, and which are DT IETF TRILL WG

  7. Reporting Attached fine-grained labels • New sub-TLV in LSP for appointed forwarder to report attachment to a range of 24-bit labels • Will be ignored by ST RBridges IETF TRILL WG

  8. Some issues with mixing ST and DT RBridges • If ST RBridge in core, make sure it doesn’t falsely filter multidestination (letting extra traffic through is OK, but blocking traffic because confusion with double tag not OK) • If core ST RBridge exists, then DT R2 attached to X.Y must report attachment to ST VLAN “X” • To allow some ST edge RBridges, we will allow some VLANs (say first k) to be announced with a single tag, whether ingressed by DT or ST IETF TRILL WG

  9. Illegal configuration • Illegal if ALL of the following are true • Single tag VLAN “X” exists • Double tag VLAN “X.Y” exists • There is a ST RBridge on the edge reporting it is connected to X • Detected through LSPs • Mediated by having DT RBridge that is appointed forwarder for DT VLAN X.Y refrain from ingressing or egressing VLAN X.Y, and complaining IETF TRILL WG

  10. ST in core • The only time core RBridges look at VLAN tag is for filtering multidestination frames • It’s OK for filtering not to be perfect (i.e., only filter on 12 of the 24 VLAN bits – it just wastes a bit of bandwidth, and filtering is a SHOULD anyway, not a MUST) • But must not falsely filter IETF TRILL WG

  11. Avoiding false filtering with ST R1 in core • To make sure that R1 doesn’t falsely filter (X.Y), all edge RBridges attached to any fine-grained label with the first 12 bits=X must report connectivity to ST VLAN “X” in addition to DT VLAN (X.Y) IETF TRILL WG

  12. Unicast • Basically no change, except for priority • Given there are two VLAN tags, there’s two priority fields • Transit RBridges use the priority in the first VLAN tag IETF TRILL WG

  13. Possible Variant • There might be reasons for R1 to send a multidestination frame as several unicasts instead • there might be a very small number of edge RBridges that need to see the frame (e.g., a VLAN that only exists at a few places) • As an alternative instead of disabling connectivity to X.Y, when illegal configuration • It is optional for ingress to send, but mandatory for egress to receive a multidestination frame as a directed unicast IETF TRILL WG

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